Surface modification of several dental substrates by non-thermal, atmospheric plasma brush

Chen, Mingsheng; Zhang, Ying; Driver, M. Sky; Caruso, Anthony N.; Yu, Qingsong; Wang, Yong

doi:10.1016/j.dental.2013.05.002

Cited by 109 publications

(133 citation statements)

References 37 publications

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“…The chemical changes include the improvement of the surface wettability and forming a functional group such as hydroxyl brought to the surface after exposure to plasma. 15 In this study, although NTP alone did not showed improvement of shear bonding strength, the combination of NTP with sandblasting showed signiflcantly higher value. This is maybe due to thermoplastic resin's high degree of crystallinity, 1,9-11 the NTP alone is not enough to improve the bonding strength between TDBRs and relining resin.…”

Section: Discussionmentioning

confidence: 91%

“…3) Sandblasting (SB) 50 μm alumina particles, treatment for 15 seconds with a pressure of 0.28 MPa at a distance of 20 mm perpendicular to the treated surface. 4) Sandblasting and nonthermal plasma (SB + NTP) combined treatment of sandblasting for 15 seconds followed by nonthermal plasma for 5 minutes at a distance of 10 mm perpendicular to the treated surface.…”

Section: Methodsmentioning

confidence: 99%

“…14 The method of plasma treatment advances the surface adaptation of dental materials. 15 In the previous studies, it is reported that surface modification using plasma treatment have improved the bonding strength between heat cured acrylic resin and self-curing acrylic resin. 16,17 The purpose of this study was to evaluate the effect of nonthermal plasma treatment on the bond strength of the autopolymerizing relining resin material to thermoplastic denture base resins in comparison to different surface treatments.…”

Section: 대한치과보철학회지 56권 3호 2018년 7월mentioning

confidence: 99%

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Nonthermal plasma on the shear bond strength of relining resin to thermoplastic denture base resin

Manaloto-Ceballos

Labriaga

Song

et al. 2018

J Korean Acad Prosthodont

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3Denture base repair or relining is mandatory for the prolonged service life of the prosthesis. 9 The application of chairside autopolymerizing resins seems to have increased because direct relining is more convenient and faster than indirect laboratory processed relining. 3 However, thermoplastic denture base resins have high chemical resistance due to its high degree of crystallinity causing difflculty in the penetration of monomer molecules and other resin primers into https: //doi.org/10.4047/jkap.2018.56.3.199 Purpose: This study evaluated the effect of nonthermal plasma treatment on the bond strength of autopolymerizing relining resin to the injection molded thermoplastic denture base resins (TDBRs) with different surface treatments. Materials and methods: Acrylic Resin (Acrytone), Polyester (Estheshot-Bright), Polyamide (Valplast) and Polypropylene (Weldenz) were subjected to various surface treatments: No treatment, Nonthermal plasma, Sandblasting, Sandblasting and nonthermal plasma. Specimens were bonded using an autopolymerizing relining resin. Shear bond strength was tested using universal testing machine with crosshead speed of 1 mm/min. Statistical analysis by two-way analysis of variance with Tukey's test post hoc was used. Results: Acrytone showed significantly higher shear bond strength value among other TDBR group while Weldenz had the lowest. The sandblasting and nonthermal plasma condition had significantly higher shear bond strength value in all of the resin groups (P < .05). Conclusion:The use of nonthermal plasma treatment showed limited effect on the shear bond strength between TDBRs and relining resin, and combination of nonthermal plasma and sandblasting improved the shear bond strength between TDBR and reline material. (J Korean Acad Prosthodont 2018;56:199-205)

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Section: Discussionmentioning

confidence: 91%

Section: Methodsmentioning

confidence: 99%

Section: 대한치과보철학회지 56권 3호 2018년 7월mentioning

confidence: 99%

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Nonthermal plasma on the shear bond strength of relining resin to thermoplastic denture base resin

Manaloto-Ceballos

Labriaga

Song

et al. 2018

J Korean Acad Prosthodont

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“…O tratamento com plasma é uma tecnologia "limpa" e "eficaz", em que as propriedades internas dos materiais podem permanecer inalteradas ou preservadas após o tratamento 5 . Plasmas não térmicos ou ainda plasmas atmosféricos são gases parcialmente ionizados, que contêm partículas altamente reativas, incluindo átomos eletronicamente excitados, moléculas, íons e espécies de radicais livres, cuja fase gasosa permanece próxima da temperatura ambiente 5,6 .…”

unclassified

“…Plasmas não térmicos ou ainda plasmas atmosféricos são gases parcialmente ionizados, que contêm partículas altamente reativas, incluindo átomos eletronicamente excitados, moléculas, íons e espécies de radicais livres, cuja fase gasosa permanece próxima da temperatura ambiente 5,6 . Dependendo da composição química do plasma ou gás, estas espécies altamente reativas podem reagir com a superfície, limpando, causando uma erosão (etching), combinando-se com a mesma e formando uma fina camada de recobrimento por plasma, e, desta forma, alterar as características da superfície 6,7 .…”

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Efeito do plasma de oxigênio na dentina previamente exposta ao NaOCl

Prado

Roizenblit

Pacheco

et al. 2016

Rev. odontol. UNESP

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ResumoIntrodução: O tratamento de plasma é uma tecnologia eficaz que pode manter as propriedades internas dos materiais inalteradas após o tratamento, modificando apenas a superfície. Objetivo: Avaliar o efeito do plasma de oxigênio na dentina previamente exposta ao NaOCl 6%. Material e método: Foram utilizados 60 incisivos bovinos. A coroa foi removida, a raiz foi dividida e as faces planificadas, totalizando 120 segmentos referentes ao terço cervical. As amostras foram divididas em dois grupos: controle (imersa em NaOCl 6%, lavada com água destilada, seca, imersa em EDTA 17%, lavada e seca) e plasma de oxigênio (após tratamento descrito no grupo controle, plasma de oxigênio foi aplicado por 30 s). As amostras foram avaliadas qualitativamente em relação à topografia por microscopia eletrônica de varredura, utilizando-se microfotografias com ampliação de 1.000×. O goniômetro Ramé-hart foi utilizado para a mensuração do ângulo de contato entre as superfícies e as seguintes soluções foram utilizadas: água, etilenoglicol e di-iodometano. Em seguida, a energia de superfície, representada pelas componentes polar e dispersiva, foi calculada. Avaliou-se também o escoamento dos cimentos Pulp Canal Sealer EWT (PCS) e Real Sal SE (RS) na superfície dentinária. Os dados foram analisados estatisticamente utilizando os testes Kruskal-Wallis e Mann-Whitney U (p<0,05). Resultado: O tratamento com plasma levou à formação de uma camada semelhante à smear layer na superfície dentinária. Este tratamento levou a um aumento da energia de superfície e da componente polar, favorecendo a hidrofilicidade da superfície. Entretanto, desfavoreceu o escoamento do cimento PCS e não influenciou no escoamento do cimento RS. Conclusão: O plasma de oxigênio ocasionou mudanças topográficas na superfície dentinária, favorecendo a hidrofilicidade desta. Contudo, não favoreceu o escoamento dos cimentos endodônticos na dentina.Descritores: Gases em plasma; hipoclorito de sódio; topografia; propriedades de superfície; molhabilidade. AbstractIntroduction: Plasma treatment is an effective technology since the internal properties of the material is kept unchanged after treatment, modifying only the surface. Objective: To evaluate the effect of oxygen plasma on dentin previously exposed to 6% NaOCl. Material and method: 60 bovine incisors were used. The crown was removed, the root splited and the faces planned amounting 120 segments related to the cervical third. The samples were divided into 2 groups, control (immersed in 6% NaOCl, washed with distilled water, dried, immersed in 17% EDTA, washed and dried) and oxygen plasma (after treatment described in the control group, oxygen plasma was applied for 30s). The samples were evaluated qualitatively in relation to topography by scanning electron microscopy using photomicrographs at 1000× of magnification. The Ramé-hart goniometer was used to measure the contact angle between the surfaces and the following solutions: water, ethyleneglycol, and diiodomethane. Then, surface energy, polar and dispersive compon...

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Dentinal tubule penetration of endodontic sealers after nonthermal plasma treatment: A confocal laser scanning microscopy study

Güneş

Yeter

Terlemez

et al. 2019

Microscopy Res & Technique

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One of the factors affecting the success of endodontic treatment is to fill the root canal system hermetically. The aim of this in vitro study was to evaluate the effect of nonthermal plasma (NP) on dentinal tubule penetration of root canal sealers using confocal laser scanning microscopy. Forty mandibular premolar teeth were selected and the root canals were prepared with large‐Waveone‐Gold rotary‐files. Specimens were divided into four experimental groups according to sealer and NP treatment (n = 10). G1: AH‐Plus (AH) G2: nonthermal plasma application + AH‐Plus(AH‐P) G3: Endosequence‐BC(BC) G4: nonthermal plasma application + Endosequence‐BC(BC‐P). Cold lateral‐condensation technique was used for the obturation of root canals. The roots were sectioned horizontally and the sections were examined under confocal laser scanning microscopy. The maximum tubule penetration and percentage of penetration values were obtained from the microscopy images and were statistically analyzed with repeated measurements‐ANOVA and the Tukey (HSD) test (p < 0.05). The percentages of dentinal tubule penetration of the groups were not statistically different. The maximum tubule penetration of the AH‐P was statistically lower than that of the BC‐P (p < 0.05). Plasma application had no affect on the percentage of dentinal tubule penetration. Under the conditions of this in vitro Endosequence‐BC sealer showed higher maximum tubule penetration values than AH‐Plus after NP treatment. Percentage of dentinal tubule penetration values of experimental groups was similar.

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Surface modification of several dental substrates by non-thermal, atmospheric plasma brush

Cited by 109 publications

References 37 publications

Nonthermal plasma on the shear bond strength of relining resin to thermoplastic denture base resin

Nonthermal plasma on the shear bond strength of relining resin to thermoplastic denture base resin

Efeito do plasma de oxigênio na dentina previamente exposta ao NaOCl

Dentinal tubule penetration of endodontic sealers after nonthermal plasma treatment: A confocal laser scanning microscopy study

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